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I'm trying to store a wchar_t string as octets, but I'm positive I'm doing it wrong - anybody mind to validate my attempt? What's going to happen when one char will consume 4 bytes?

  unsigned int i;
  const wchar_t *wchar1 = L"abc";
  wprintf(L"%ls\r\n", wchar1);

  for (i=0;i< wcslen(wchar1);i++) {
    printf("(%d)", (wchar1[i]) & 255);
    printf("(%d)", (wchar1[i] >> 8) & 255);
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Where exactly are you trying to store them? The printf calls are outputting each byte as a parenthesised number. This will show you what an octet stream would contain, but it isn't an octet stream (at least, not in the way I think you mean it). – Marcelo Cantos Jul 25 '10 at 14:08
I stated that I'm trying to store it, as in - this is my goal. The printf() is the 'visual' outcome for me to judge. Do you happen to know what will happen with a char(codepoint?) which consumes 4 bytes? – Doori Bar Jul 25 '10 at 14:22
Well, apparently my sample is correct. I thought wcslen() will return 1, for a char which consumes 4 bytes. But apparently it returns 2 for a 4 bytes long char, so it translates the original wchar_t as-is. Thanks a lot guys! – Doori Bar Jul 25 '10 at 15:03

4 Answers 4

up vote 4 down vote accepted

Unicode text is always encoded. Popular encodings are UTF-8, UTF-16 and UTF-32. Only the latter has a fixed size for a glyph. UTF-16 uses surrogates for codepoints in the upper planes, such a glyph uses 2 wchar_t. UTF-8 is byte oriented, it uses between 1 and 4 bytes to encode a codepoint.

UTF-8 is an excellent choice if you need to transcode the text to a byte oriented stream. A very common choice for text files and HTML encoding on the Internet. If you use Windows then you can use WideCharToMultiByte() with CodePage = CP_UTF8. A good alternative is the ICU library.

Be careful to avoid byte encodings that translate text to a code page, such as wcstombs(). They are lossy encodings, glyphs that don't have a corresponding character code in the code page are replaced by ?.

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Thanks for the clarification of: "such a glyph uses 2 wchar_t.", I suppose in addition to the comment of mine on the original question, I'll accept your answer. – Doori Bar Jul 26 '10 at 18:36

You can use the wcstombs() (widechar string to multibyte string) function provided in stdlib.h

The prototype is as follows:

#include <stdlib.h>

size_t wcstombs(char *dest, const wchar_t *src, size_t n);

It will correctly convert your wchar_t string provided by src into a char (a.k.a. octets) string and write it to dest with at most n bytes.

char wide_string[] = "Hellöw, Wörld! :)";
char mb_string[512]; /* Might want to calculate a better, more realistic size! */
int i, length;

memset(mb_string, 0, 512);
length = wcstombs(mb_string, wide_string, 511);

/* mb_string will be zero terminated if it wasn't cancelled by reaching the limit
 * before being finished with converting. If the limit WAS reached, the string
 * will not be zero terminated and you must do it yourself - not happening here */

for (i = 0; i < length; i++)
   printf("Octet #%d: '%02x'\n", i, mb_string[i]);
share|improve this answer
Thanks for the fast response and your samples, I'm trying to understand whether wcstombs() transparently 'converts' invalid sequences, do you happen to know if it does? – Doori Bar Jul 25 '10 at 14:31
If it encounters a wide character that can not be converted to a multibyte representation, wcstombs() will return -1, so nothing is done without you not knowing :) – LukeN Jul 25 '10 at 14:35
@LukeN: That's what I was afraid of, I'm not sure what it defines as a multibyte representation? a different encoding - such as UTF-8? (my goal is to store transparently a wchar_t of 2 bytes - UTF-16LE, under windows) – Doori Bar Jul 25 '10 at 14:37
I think C defines a multibyte string as just that - characters that don't fit into 1 byte will be split over multiple bytes and can be "unsplit" again later. I don't know whether or not it's clean UTF-8 when it comes out of that function :( But if you can't be sure that your widechar string contains usable characters, how should C (or in a do-it-yourself attempt: you) know HOW to split them to octets? – LukeN Jul 25 '10 at 15:01
Thanks a lot, apparently my sample is correct - I just commented on it – Doori Bar Jul 25 '10 at 15:04

If you're trying to see the content of the memory buffer holding the string, you can do this:

  size_t len = wcslen(str) * sizeof(wchar_t);
  const char *ptr = (const char*)(str);
  for (i=0; i<len; i++) {
    printf("(%u)", ptr[i]);
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That's C++. The asker is looking for C. – LukeN Jul 25 '10 at 14:16
@LukeN, thanks. I hoped it's now C. – Amnon Jul 25 '10 at 14:28
the idea can be used in C too, the only c++ism is the reinterpret_cast thing --- is -> was ... – ShinTakezou Jul 25 '10 at 14:28
@ShinTakezou: But that reinterpret_cast thing does not make sense to a pure C programmer - without knowing it, they don't know it's basically the same as (type *)&cast_me – LukeN Jul 25 '10 at 14:33
if wcslen() represents a codepoint, and sizeof(wchar_t) represents 2 bytes under windows - how could it possibly handle codepoints which consumes 4 bytes? – Doori Bar Jul 25 '10 at 14:34

I don't know why printf and wprintf do not work together. Following code works.

unsigned int i;
const wchar_t *wchar1 = L"abc";
wprintf(L"%ls\r\n", wchar1);

for(i=0; i<wcslen(wchar1); i++)
    wprintf(L"(%d)", (wchar1[i]) & 255);
    wprintf(L"(%d)", (wchar1[i] >> 8) & 255);
share|improve this answer

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